体外人甲板机械开窗使环吡肟经口给药量增加3 - 4倍的研究

D. Díaz, M. E. Iglesias, R. B. Vallejo, M. Díaz
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引用次数: 3

摘要

甲真菌病是一种真菌感染的指甲,是广泛和难以治疗,因为人类指甲的不透水性。局部应用的抗真菌药物不能穿透这种结构,治疗方案通常采用系统性抗真菌药物,并伴有副作用。最近的一项临床研究表明,使用智能钉钻对指甲进行机械开窗可能是解决这个问题的一种可能的方法。在这项工作中,提出了一种体外模型的经舌传递抗真菌药物,它利用真实的指甲组织和内联流系统。该系统用于测量环匹洛克斯的经口给药,并确定42天后,指甲开窗将药物给药提高了3 - 4倍。这项研究支持了指甲开窗应该被接受为甲真菌病的预处理的观点,并提供了一种评估新药或配方的方法来对抗这种情况。本文所述的体外模型将是临床试验前直接测量经口给药抗真菌药物的极好系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on Transungual Delivery of Ciclopirox is Increased 3–4-Fold by Mechanical Fenestration of Human Nail Plate in an in vitro Model
Onychomycosis is a fungal infection of nails that is widespread and difficult to treat because of the impermeable nature of human nails. Topically applied anti-fungal agents cannot penetrate this structure, and treatment regimens often resort to systemic antifungals with concomitant side effects. One recent clinical study suggested that mechanical fenestration of the nail using an intelligent nail drill might be a possible solution to this problem. In this work, an in vitro model of the transungual delivery of antifungal agents is presented, which utilizes real nail tissue and an inline flow system. This system was deployed to measure transungual delivery of ciclopirox and determined that nail fenestration improved drug delivery by 3–4-fold after 42 days. This study bolsters the argument that nail fenestration should be accepted as a pretreatment for onychomycosis and offers a way of evaluating new drugs or formulations designed to combat this condition. The in vitro model described herein would be an excellent system to directly measure transungual delivery of antifungal agents prior to clinical trials.
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